Solving the taxonomic identity of Pseudotomentella tristis s.l. (Thelephorales, Basidiomycota) – a multi-gene phylogeny and taxonomic review, integrating ecological and geographical data

P. tristis is an ectomycorrhizal, corticioid fungus whose name is frequently assigned to collections of basidiomata as well as root tip and soil samples from a wide range of habitats and hosts across the northern hemisphere. Despite this, its identity is unclear; eight heterotypic taxa have in major...

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Published in:MycoKeys
Main Authors: Svantesson,Sten, Larsson,Karl-Henrik, Kõljalg,Urmas, May,Tom, Cangren,Patrik, Nilsson,R. Henrik, Larsson,Ellen
Format: Article in Journal/Newspaper
Language:English
Published: Pensoft Publishers 2019
Subjects:
Corticioid fungi
ectomycorrhiza
taxonomy
species complex
molecular systematics
species tree
STACEY
UNITE database
Arctic
Tundra
Online Access:https://doi.org/10.3897/mycokeys.50.32432
https://mycokeys.pensoft.net/article/32432/
id ftpensoft:10.3897/mycokeys.50.32432
record_format openpolar
spelling ftpensoft:10.3897/mycokeys.50.32432 2023-05-15T15:19:37+02:00 Solving the taxonomic identity of Pseudotomentella tristis s.l. (Thelephorales, Basidiomycota) – a multi-gene phylogeny and taxonomic review, integrating ecological and geographical data Svantesson,Sten Larsson,Karl-Henrik Kõljalg,Urmas May,Tom Cangren,Patrik Nilsson,R. Henrik Larsson,Ellen 2019 text/html https://doi.org/10.3897/mycokeys.50.32432 https://mycokeys.pensoft.net/article/32432/ en eng Pensoft Publishers info:eu-repo/semantics/altIdentifier/eissn/1314-4049 info:eu-repo/semantics/altIdentifier/pissn/1314-4057 info:eu-repo/semantics/openAccess MycoKeys 50: 1-77 Corticioid fungi ectomycorrhiza taxonomy species complex molecular systematics species tree STACEY UNITE database Research Article 2019 ftpensoft https://doi.org/10.3897/mycokeys.50.32432 2022-03-01T12:39:17Z P. tristis is an ectomycorrhizal, corticioid fungus whose name is frequently assigned to collections of basidiomata as well as root tip and soil samples from a wide range of habitats and hosts across the northern hemisphere. Despite this, its identity is unclear; eight heterotypic taxa have in major reviews of the species been considered synonymous with or morphologically similar to P. tristis, but no sequence data from type specimens have been available. With the aim to clarify the taxonomy, systematics, morphology, ecology and geographical distribution of P. tristis and its morphologically similar species, we studied their type specimens as well as 147 basidiomata collections of mostly North European material. We used gene trees generated in BEAST 2 and PhyML and species trees estimated in STACEY and ASTRAL to delimit species based on the ITS, LSU, Tef1α and mtSSU regions. We enriched our sampling with environmental ITS sequences from the UNITE database. We found the P. tristis group to contain 13 molecularly and morphologically distinct species. Three of these, P. tristis, P. umbrina and P. atrofusca, are already known to science, while ten species are here described as new: P. sciastra sp. nov., P. tristoides sp. nov., P. umbrinascens sp. nov., P. pinophila sp. nov., P. alnophila sp. nov., P. alobata sp. nov., P. pluriloba sp. nov., P. abundiloba sp. nov., P. rotundispora sp. nov. and P. media sp. nov. We discovered P. rhizopunctata and P. atrofusca to form a sister clade to all other species in P. tristis s.l. These two species, unlike all other species in the P. tristis complex, are dimitic. In this study, we designate epitypes for P. tristis, P. umbrina and Hypochnopsis fuscata and lectotypes for Auricularia phylacteris and Thelephora biennis. We show that the holotype of Hypochnus sitnensis and the lectotype of Hypochnopsis fuscata are conspecific with P. tristis, but in the absence of molecular information we regard Pseudotomentella longisterigmata and Hypochnus rhacodium as doubtful taxa due to their aberrant morphology. We confirm A. phylacteris, Tomentella biennis and Septobasidium arachnoideum as excluded taxa, since their morphology clearly show that they belong to other genera. A key to the species of the P. tristis group is provided. We found P. umbrina to be a common species with a wide, Holarctic distribution, forming ectomycorrhiza with a large number of host species in habitats ranging from tropical forests to the Arctic tundra. The other species in the P. tristis group were found to be less common and have narrower ecological niches. Article in Journal/Newspaper Arctic Tundra Pensoft Publishers Arctic MycoKeys 50 1 77
institution Open Polar
collection Pensoft Publishers
op_collection_id ftpensoft
language English
topic Corticioid fungi
ectomycorrhiza
taxonomy
species complex
molecular systematics
species tree
STACEY
UNITE database
spellingShingle Corticioid fungi
ectomycorrhiza
taxonomy
species complex
molecular systematics
species tree
STACEY
UNITE database
Svantesson,Sten
Larsson,Karl-Henrik
Kõljalg,Urmas
May,Tom
Cangren,Patrik
Nilsson,R. Henrik
Larsson,Ellen
Solving the taxonomic identity of Pseudotomentella tristis s.l. (Thelephorales, Basidiomycota) – a multi-gene phylogeny and taxonomic review, integrating ecological and geographical data
topic_facet Corticioid fungi
ectomycorrhiza
taxonomy
species complex
molecular systematics
species tree
STACEY
UNITE database
description P. tristis is an ectomycorrhizal, corticioid fungus whose name is frequently assigned to collections of basidiomata as well as root tip and soil samples from a wide range of habitats and hosts across the northern hemisphere. Despite this, its identity is unclear; eight heterotypic taxa have in major reviews of the species been considered synonymous with or morphologically similar to P. tristis, but no sequence data from type specimens have been available. With the aim to clarify the taxonomy, systematics, morphology, ecology and geographical distribution of P. tristis and its morphologically similar species, we studied their type specimens as well as 147 basidiomata collections of mostly North European material. We used gene trees generated in BEAST 2 and PhyML and species trees estimated in STACEY and ASTRAL to delimit species based on the ITS, LSU, Tef1α and mtSSU regions. We enriched our sampling with environmental ITS sequences from the UNITE database. We found the P. tristis group to contain 13 molecularly and morphologically distinct species. Three of these, P. tristis, P. umbrina and P. atrofusca, are already known to science, while ten species are here described as new: P. sciastra sp. nov., P. tristoides sp. nov., P. umbrinascens sp. nov., P. pinophila sp. nov., P. alnophila sp. nov., P. alobata sp. nov., P. pluriloba sp. nov., P. abundiloba sp. nov., P. rotundispora sp. nov. and P. media sp. nov. We discovered P. rhizopunctata and P. atrofusca to form a sister clade to all other species in P. tristis s.l. These two species, unlike all other species in the P. tristis complex, are dimitic. In this study, we designate epitypes for P. tristis, P. umbrina and Hypochnopsis fuscata and lectotypes for Auricularia phylacteris and Thelephora biennis. We show that the holotype of Hypochnus sitnensis and the lectotype of Hypochnopsis fuscata are conspecific with P. tristis, but in the absence of molecular information we regard Pseudotomentella longisterigmata and Hypochnus rhacodium as doubtful taxa due to their aberrant morphology. We confirm A. phylacteris, Tomentella biennis and Septobasidium arachnoideum as excluded taxa, since their morphology clearly show that they belong to other genera. A key to the species of the P. tristis group is provided. We found P. umbrina to be a common species with a wide, Holarctic distribution, forming ectomycorrhiza with a large number of host species in habitats ranging from tropical forests to the Arctic tundra. The other species in the P. tristis group were found to be less common and have narrower ecological niches.
format Article in Journal/Newspaper
author Svantesson,Sten
Larsson,Karl-Henrik
Kõljalg,Urmas
May,Tom
Cangren,Patrik
Nilsson,R. Henrik
Larsson,Ellen
author_facet Svantesson,Sten
Larsson,Karl-Henrik
Kõljalg,Urmas
May,Tom
Cangren,Patrik
Nilsson,R. Henrik
Larsson,Ellen
author_sort Svantesson,Sten
title Solving the taxonomic identity of Pseudotomentella tristis s.l. (Thelephorales, Basidiomycota) – a multi-gene phylogeny and taxonomic review, integrating ecological and geographical data
title_short Solving the taxonomic identity of Pseudotomentella tristis s.l. (Thelephorales, Basidiomycota) – a multi-gene phylogeny and taxonomic review, integrating ecological and geographical data
title_full Solving the taxonomic identity of Pseudotomentella tristis s.l. (Thelephorales, Basidiomycota) – a multi-gene phylogeny and taxonomic review, integrating ecological and geographical data
title_fullStr Solving the taxonomic identity of Pseudotomentella tristis s.l. (Thelephorales, Basidiomycota) – a multi-gene phylogeny and taxonomic review, integrating ecological and geographical data
title_full_unstemmed Solving the taxonomic identity of Pseudotomentella tristis s.l. (Thelephorales, Basidiomycota) – a multi-gene phylogeny and taxonomic review, integrating ecological and geographical data
title_sort solving the taxonomic identity of pseudotomentella tristis s.l. (thelephorales, basidiomycota) – a multi-gene phylogeny and taxonomic review, integrating ecological and geographical data
publisher Pensoft Publishers
publishDate 2019
url https://doi.org/10.3897/mycokeys.50.32432
https://mycokeys.pensoft.net/article/32432/
geographic Arctic
geographic_facet Arctic
genre Arctic
Tundra
genre_facet Arctic
Tundra
op_source MycoKeys 50: 1-77
op_relation info:eu-repo/semantics/altIdentifier/eissn/1314-4049
info:eu-repo/semantics/altIdentifier/pissn/1314-4057
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.3897/mycokeys.50.32432
container_title MycoKeys
container_volume 50
container_start_page 1
op_container_end_page 77
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